CN211899417U - Floor board splicing system - Google Patents

Abstract

The utility model provides a system is assembled to floor board piece, including two at least floor modules and connecting piece, it has the draw-in groove to open on the border of floor module, and the first backup pad of connecting piece realizes the connection of two adjacent floor modules in inserting the draw-in groove of two adjacent floor modules, and the second backup pad of connecting piece is connected with ground. Under the installation requirement of accomplishing floor module, need not on-the-spot cement mortar of stirring, also need not to cut the plank, not only can guarantee the site operation environment, but also need not to wait for cement mortar to solidify, can shorten installation time, improve fitment efficiency to all parts all can be accomplished at mill's processing, and the fitment can be accomplished to the simple equipment of only needing to carry out on-the-spot, and the technical level requirement to constructor is low, can reduce the cost of labor, simple structure simultaneously, simple to operate, it is with low costs.

Description

Floor board splicing system

Technical Field

The utility model relates to an architectural decoration field especially relates to a system is assembled to floor slab piece.

Background

At present, the decoration mode of the common ground in the market is as follows: and (3) stirring cement mortar on site, and sticking the ceramic tile on the ground by using the cement mortar. The ground decoration mode can cause dirty and messy field environment, meanwhile, cement paste needs to be waited for to solidify, construction environment is poor, decoration period is long, decoration efficiency is low, and high requirements on technical level of constructors are met, so that labor cost is high.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a floor slab assembly system to solve the above technical problem.

The utility model provides a system is assembled to floor slab piece, include: a connecting piece and at least two floor modules;

the floor module comprises a first floor, and a clamping groove is arranged on the edge of the first floor;

the connecting piece comprises a first supporting plate, a connecting plate and a second supporting plate connected with the ground; the two sides of the connecting plate in the same extending direction are fixedly connected with the first supporting plate and the second supporting plate respectively; the clamping groove is inserted into the first supporting plate, and adjacent floor modules are connected.

Furthermore, the clamping groove comprises a first groove bottom plate, a first clamping groove side wall plate and a second clamping groove side wall plate, wherein the first clamping groove side wall plate and the second clamping groove side wall plate are arranged on two opposite sides of the first groove bottom plate;

the first supporting plate, the connecting plate and the second supporting plate form a first groove and a second groove which are opposite in opening direction, and the side wall plates of the second clamping grooves of the adjacent first floors are clamped with the first groove and the second groove respectively.

Further, the distance from the end face of the first groove side wall plate of the first groove to the first groove bottom plate of the first groove is smaller than the distance from the end face of the second groove side wall plate of the first groove to the first groove bottom plate; the distance from the end face of the third groove side wall plate of the second groove to the second groove bottom plate of the second groove is smaller than the distance from the end face of the fourth groove side wall plate of the second groove to the second groove bottom plate.

Further, the distance from the end face of the first groove side wall plate to the first groove bottom plate is smaller than the distance from the end face of the third groove side wall plate to the second groove bottom plate; the distance from the end face of the second groove side wall plate to the first groove bottom plate is greater than the distance from the end face of the fourth groove side wall plate to the second groove bottom plate.

Further, the distance from the end face of the third groove side wall plate to the second groove bottom plate is greater than the distance from the end face of the second slot side wall plate to the first slot bottom plate.

Furthermore, the second supporting plate is provided with at least one through hole for connecting with the ground.

Further, the floor module also comprises a second floor for connecting with the ground; the first floor is connected with the second floor in an attaching mode; the second floor is abutted against the second groove side wall plate.

Further, the floor module further comprises a third floor, and the third floor is respectively attached to the first floor and the second floor.

Further, the floor module further comprises a fourth floor, and the first floor is attached to the third floor and the fourth floor respectively.

Further, the floor plate assembly system further comprises a support piece, wherein at least three protruding portions are arranged on the support piece at intervals, and adjacent floor modules and connecting pieces are arranged on the protruding portions.

The utility model provides a system is assembled to floor plate piece is through setting up two at least floor modules and connecting piece, and it has the draw-in groove to open on the border of floor module, and the first backup pad of connecting piece realizes the connection of two adjacent floor modules in inserting the draw-in groove of two adjacent floor modules, and the second backup pad and the ground of connecting piece are connected. Under the installation requirement of accomplishing floor module, need not on-the-spot cement mortar of stirring, also need not to cut the plank, not only can guarantee the site operation environment, but also need not to wait for cement mortar to solidify, can shorten installation time, improve fitment efficiency to all parts all can be accomplished at mill's processing, and the fitment can be accomplished to the simple equipment of only needing to carry out on-the-spot, and the technical level requirement to constructor is low, can reduce the cost of labor, simple structure simultaneously, simple to operate, it is with low costs.

Drawings

The objects and advantages of the present invention will be understood from the following detailed description of the preferred embodiments of the invention, taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural view of a floor panel assembling system according to an embodiment of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is an enlarged view of portion B of FIG. 1;

fig. 4 is a perspective view of a connector according to an embodiment of the present invention;

FIG. 5 is an enlarged view of portion C of FIG. 4;

fig. 6 is an elevation view of a connector according to an embodiment of the present invention;

fig. 7 is a schematic structural view of a floor panel assembly system according to an embodiment of the present invention connected to a self-leveling floor;

fig. 8 is a schematic structural view of the floor panel assembling system according to an embodiment of the present invention connected to the ground.

Detailed Description

The present invention will be described in detail with reference to the following examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Fig. 1 is a schematic structural view of a floor panel assembling system according to an embodiment of the present invention; fig. 2 is an enlarged view of a portion a in fig. 1. As shown in fig. 1-2, an embodiment of the present invention provides a system is assembled to floor slab, including: a coupling piece 2 and at least two floor modules 1.

The floor module 1 comprises a first floor 3, and a clamping groove 33 is arranged on the edge of the first floor 3.

As shown in fig. 3, the engaging groove 33 is located at a middle position in the thickness direction of the end surface of the first floor panel 3. In this embodiment, the first floor 3 may be a commercial product made of a cement fiberboard having a density of not less than 1.4g/cm 3. The predetermined dimension of each floor module is length, width, thickness, 2400, 600, 10mm, which can be pre-cut to predetermined dimensions in the factory according to construction drawings.

The connector 2 comprises a first support plate 21, a connecting plate 22 and a second support plate 23 for connecting with the ground. In this embodiment, the second supporting plate 23 may be connected to the ground by screws or steel nails.

The two sides of the connecting plate 22 in the same extending direction are fixedly connected with the first supporting plate 21 and the second supporting plate 23 respectively. The clamping groove 33 is inserted into the first supporting plate 21 to connect the adjacent floor modules 1. In the present embodiment, the first support plate 21 is disposed in parallel with the second support plate 23, and the connection plates 22 are perpendicular to the first support plate 21 and the second support plate 23, respectively.

As shown in fig. 2, the first supporting plate 21 is inserted into the locking grooves 33 of the left and right adjacent floor modules 1. Where "left" and "right" are directions in the view of fig. 2.

During installation, one floor module 1 is placed at a preset installation position, one end of the first supporting plate 21 of the connecting piece 2 is inserted into the clamping groove 33 of the installed floor module 1, the second supporting plate 23 of the connecting piece 1 is fixed with the ground, then the clamping groove 33 of the other floor module 1 is connected with the other end of the first supporting plate 21 of the connecting piece 2, the other end of the first supporting plate 21 is inserted into the clamping groove 33 of the other floor module 1, and therefore installation of the two adjacent floor modules 1 is achieved. And connecting other floor modules 1 and the connecting piece 2 successively to finish the laying and installation of the floor.

Due to the arrangement of the connecting pieces 1, the first supporting plate 21 is connected with the adjacent floor module 1, and the second supporting plate 23 is connected with the floor module 1 and the ground. In the installation process, cement mortar is not needed, and the cement mortar does not need to wait for solidification, so that the construction and installation time can be shortened, and the labor cost can be reduced; and the cutting is not needed to be carried out on site according to the site size, so that wood is wasted, and the site construction environment is guaranteed.

The utility model provides a system is assembled to floor plate piece is through setting up two at least floor modules and connecting piece, and it has the draw-in groove to open on the border of floor module, and the first backup pad of connecting piece realizes the connection of two adjacent floor modules in inserting the draw-in groove of two adjacent floor modules, and the second backup pad and the ground of connecting piece are connected. Under the installation requirement of accomplishing floor module, need not on-the-spot cement mortar of stirring, also need not to cut the plank, not only can guarantee the site operation environment, but also need not to wait for cement mortar to solidify, can shorten installation time, improve fitment efficiency to all parts all can be accomplished at mill's processing, and the fitment can be accomplished to the simple equipment of only needing to carry out on-the-spot, and the technical level requirement to constructor is low, can reduce the cost of labor, simple structure simultaneously, simple to operate, it is with low costs.

Further, the card slot 33 includes a first slot bottom plate and a first card slot side wall plate 31 and a second card slot side wall plate 32 disposed on opposite sides of the first slot bottom plate.

The distance from the end face of the first slot side wall plate 31 of the slot 33 to the first slot bottom plate of the slot 33 is greater than the distance from the end face of the second slot side wall plate 32 of the slot 33 to the first slot bottom plate of the slot 33, so that the second slot side wall plate 32 and the connecting plate 22 are prevented from colliding with each other when being plugged with the connecting piece 2, and the connecting plate 22 is protected from being damaged.

In this embodiment, floor module 1 is square board, all offers draw-in groove 33 on the intermediate position of four terminal surfaces of square board, about need not distinguishing when the installation is used, and it is nimble convenient to use. The depth of the pockets 33 is about 8mm and the first pocket side wall plate 31 projects about 2mm from the second pocket side wall plate 32 as shown in figure 3.

The first supporting plate 21, the connecting plate 22 and the second supporting plate 22 form a first groove 25 and a second groove 26 with opposite opening directions, and the adjacent two second slot side wall plates 32 are respectively clamped with the first groove 25 and the second groove 26.

By providing the first and second recesses 25, 26 such that the second card slot side wall plate 32 of the card slot 33 is connected with the first and second recesses 25, 26, the stability of the connection of adjacent floor modules 1 can be increased.

In this embodiment, the connecting member 2 is a letter-shaped member, the thickness of the connecting plate 22 of the letter-shaped member is about 1.5mm, and when the floor module 1 is installed, the distance between the two adjacent first slot side wall plates 31 is about 1.5mm, so that the width of the ground gap is controlled to be about 1.5mm, and the phenomenon of wet expansion and arching of the first floor caused by the influence of temperature and humidity in the installation and use processes is prevented.

Further, the distance from the end surface of the first groove side wall plate 27 of the first groove 25 to the first groove bottom plate of the first groove 25 is smaller than the distance from the end surface of the second groove side wall plate 28 of the first groove 25 to the first groove bottom plate, that is, the second groove side wall plate 28 protrudes from the first groove side wall plate 27, so that the contact area between the second support plate 23 and the floor module 1 can be increased, and the supporting force of the second support plate 23 on the floor module 1 can be increased.

The distance from the end surface of the third groove side wall plate 29 of the second groove 26 to the second groove bottom plate of the second groove 26 is smaller than the distance from the end surface of the fourth groove side wall plate 30 of the second groove 26 to the second groove bottom plate, that is, the fourth groove side wall plate 30 protrudes from the third groove side wall plate 29, so that the contact area between the second support plate 23 and the floor module 1 can be increased, and the supporting force of the second support plate 23 on the floor module 1 can be increased.

As shown in fig. 6, the length of the second support plate 23 is significantly greater than that of the first support plate 21, so that it is convenient to set screws on the second support plate 23 to connect the connector 2 with the ground. Wherein the length direction is the length direction shown in fig. 6.

As shown in fig. 7, the connecting member 2 connects two adjacent floor modules 1 into a whole, and the connecting member 2 is fixedly connected with the ground by screws.

Further, the distance from the end face of the first groove side wall plate 27 to the first groove bottom plate is smaller than the distance from the end face of the third groove side wall plate 29 to the second groove bottom plate, so that the first groove side wall plate 27 and the third groove side wall plate 29 are prevented from simultaneously contacting with the second groove bottom plate in the installation and use processes of two adjacent floor modules 1, and the phenomenon of wet expansion and arching occurs when the floor modules 1 are influenced by temperature and humidity.

As shown in fig. 2 and 6, when the first and third groove side wall plates 27, 29 are plugged into the card slot 33 of the floor module 1, the third groove side wall plate 29 contacts the first card slot bottom plate of the card slot 33, and the first groove side wall plate 27 is spaced apart from the first card slot bottom plate of the card slot 33.

The distance from the end face of the second pocket side wall panel 28 to the first pocket base panel is greater than the distance from the end face of the fourth pocket side wall panel 30 to the second pocket base panel.

Further, as shown in fig. 6, the distance from the end surface of the third groove side wall plate 29 to the second groove bottom plate is greater than the distance from the end surface of the second slot side wall plate 32 to the first slot bottom plate, so that the second slot side wall plate 32 can be prevented from contacting the first groove bottom plate when the third groove side wall plate 29 and the second groove bottom plate on the same side of the floor module 1 are contacted in the installation and use process, and the wet expansion and arching phenomenon can occur when the floor module 1 is influenced by temperature and humidity.

In this embodiment, as shown in fig. 2, the distance from the end surface of the first groove side wall plate 27 to the first groove bottom plate is equal to the distance from the end surface of the second groove side wall plate 32 to the first groove bottom plate, the distance from the end surface of the third groove side wall plate 29 to the second groove bottom plate is 2mm greater than the distance from the end surface of the second groove side wall plate 32 to the first groove bottom plate, and in the installation and connection process, a gap of 2mm is formed between the second groove side wall plate 32 and each of the first groove 25 and the second groove 26. Preventing the floor module 1 from wet expansion and arching in the installation and use process.

Further, the second support plate 23 is provided with at least one through hole 24. As shown in fig. 4 and 5, a plurality of through holes are distributed on the second supporting plate 23 at intervals, so that the second supporting plate 23 is conveniently connected with the ground, and meanwhile, the connecting piece 2 is more firmly connected with the ground, and the floor module 1 is prevented from moving in the installation and use process.

In this embodiment, the connecting member 2 is fixedly connected to the ground by a nail or a screw passing through the through hole.

Preferably, the through hole 24 is a counter-sunk hole, which facilitates the fixation of a gun nail or a screw on the ground.

Further, the floor module 1 also comprises a second floor 4 for connection to the ground.

As shown in fig. 2, the first floor panel 3 is attached to the second floor panel 4, and one end surface of the second floor panel 4 abuts against an end surface of the second groove side wall panel 32.

As shown in fig. 2 and 3, the second floor 4 and the second slot sidewall 32 form a gap, the left side of the second supporting plate 23 is inserted into the gap to contact with the end surface of the second floor 4, and the right side of the second supporting plate has a certain gap with the second floor 4, so that the wet expansion and arching of the floor module 1 can be prevented during installation and use.

In this embodiment, the second floor 4 may be a sound-deadening pad, which has a certain sound-reducing and vibration-isolating function. Holes can be drilled on the second floor 4, and the nail-free glue is connected with the ground to prevent the floor module from vibrating and displacing in the long-term use process.

Further, the floor module 1 further includes a third floor 5, and the third floor 5 is respectively attached to the first floor 3 and the second floor 4.

As shown in fig. 2 and 3, the end surface of the third floor panel 5 is coplanar with the end surface of the second click-groove side wall plate 32 on the first floor panel 3, the third floor panel 5 and the second click-groove side wall plate 32 are clicked together into the first recess 25 and the second recess 26, and the second support plate 23 supports the third floor panel 5.

In this embodiment, the third floor 5 is made of a common fireproof plate, so that the floor has a certain fireproof function.

Further, the floor module 1 further comprises a fourth floor 6, and the first floor 3 is respectively attached to the third floor 5 and the fourth floor 6.

As shown in fig. 2 and 3, the fourth floor panel 6 completely adheres to the first floor panel 3, and the end surface of the fourth floor panel 6 is coplanar with the end surface of the first pocket side wall panel 31 of the first floor panel 3.

In this embodiment, fourth floor 6 adopts special PLASTIC LAMINATED, chooses for use wear-resisting revolution number more than or equal to 6000r, the PLASTIC LAMINATED that has certain anti-skidding characteristic, and the veneer that is used for trampling simultaneously can make ceramic tile/stone material, has the timber apron texture on the veneer and can replace ceramic tile/stone material, timber apron effect. The first floor, the second floor, the third floor and the fourth floor are integrally formed in a cold pressing mode. A large amount of urea-formaldehyde/phenolic resin adhesive is not needed in the whole forming process.

Further, the floor panel assembling system further comprises support pieces 7, wherein at least three protruding portions are distributed on the support pieces 7 at intervals, and the adjacent floor modules 1 and the connecting pieces 2 are arranged on the protruding portions.

As shown in fig. 8, the supporting member 3 is provided with three protrusions, the connecting member 2 is located on the middle protrusion, the left floor module 1 is located on the left protrusion and the middle protrusion, and the right floor module 1 is located on the right protrusion and the middle protrusion.

The support member 7 includes a support plate which is hollow and in which a plurality of partition plates are provided, the partition plates being vertically connected to opposite inner walls of the support plate 7 and partitioning the inside of the support plate 7 into a plurality of hollow regions.

The bellying is the cuboid, and the cuboid cavity is inside to be provided with a plurality of horizontal boards and a plurality of vertical board, and every horizontal board all is connected with every vertical board is perpendicular, constitutes the net, and the net becomes a plurality of cavity regions with bellying internal interval.

In another embodiment of the invention, the floor module 1 is mounted on an elevated floor, and the support 7 separates the floor from the floor module 1. The floor module 1 is firstly clamped with the right side of the connecting piece 2, the connecting piece 2 is fixedly connected with the boss of the supporting piece 7 through a self-tapping screw, then the other floor module 1 is clamped with the left side of the connecting piece 2, and then the other floor modules 1, the connecting piece 2 and the supporting piece 7 are sequentially installed according to the installation method, so that the floor module 1 is installed on the overhead ground.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. A system is assembled to floor slab piece, comprising: a connecting piece and at least two floor modules;

the floor module comprises a first floor, and a clamping groove is arranged on the edge of the first floor;

the connecting piece comprises a first supporting plate, a connecting plate and a second supporting plate connected with the ground; the two sides of the connecting plate in the same extending direction are fixedly connected with the first supporting plate and the second supporting plate respectively; the clamping groove is inserted into the first supporting plate, and adjacent floor modules are connected.

2. The floor panel assembly system of claim 1, wherein the channel includes a first channel floor and first and second channel side wall panels disposed on opposite sides of the first channel floor, the distance from the end surface of the first channel side wall panel to the first channel floor being greater than the distance from the end surface of the second channel side wall panel to the first channel floor of the channel;

the first supporting plate, the connecting plate and the second supporting plate form a first groove and a second groove which are opposite in opening direction, and the side wall plates of the second clamping grooves of the adjacent first floors are clamped with the first groove and the second groove respectively.

3. The floor panel assembly system of claim 2, wherein a distance from an end surface of a first groove side wall plate of the first groove to a first groove bottom plate of the first groove is smaller than a distance from an end surface of a second groove side wall plate of the first groove to the first groove bottom plate; the distance from the end face of the third groove side wall plate of the second groove to the second groove bottom plate of the second groove is smaller than the distance from the end face of the fourth groove side wall plate of the second groove to the second groove bottom plate.

4. The floor panel assembly system of claim 3, wherein a distance from an end surface of the first groove side wall panel to the first groove bottom panel is less than a distance from an end surface of the third groove side wall panel to the second groove bottom panel; the distance from the end face of the second groove side wall plate to the first groove bottom plate is greater than the distance from the end face of the fourth groove side wall plate to the second groove bottom plate.

5. The floor panel assembly system of claim 4, wherein a distance from an end surface of the third groove side wall panel to the second groove bottom panel is greater than a distance from an end surface of the second groove side wall panel to the first groove bottom panel.

6. The floor panel assembly system of claim 5, wherein the second support plate has at least one through hole formed therein for coupling with the ground.

7. The floor tile assembly system of claim 6, wherein the floor module further comprises a second floor panel for coupling to the ground; the first floor is connected with the second floor in an attaching mode; the second floor is abutted against the second groove side wall plate.

8. The floor tile assembly system of claim 7, wherein the floor module further comprises a third floor panel, the third floor panel being attached to the first floor panel and the second floor panel, respectively.

9. The floor tile assembly system of claim 8, wherein the floor module further comprises a fourth floor, the first floor being attached to the third floor and the fourth floor, respectively.

10. The floor panel assembly system of any one of claims 1 to 9, further comprising a support member having at least three spaced apart projections, wherein adjacent floor modules and connectors are mounted on the projections.

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